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Main Authors: Taylor, Ben J., Smith, Peter R., Dynes, James F., Woodward, Robert I., Lucamarini, Marco, Stevenson, R. Mark, Shields, Andrew J.
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2605.22580
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author Taylor, Ben J.
Smith, Peter R.
Dynes, James F.
Woodward, Robert I.
Lucamarini, Marco
Stevenson, R. Mark
Shields, Andrew J.
author_facet Taylor, Ben J.
Smith, Peter R.
Dynes, James F.
Woodward, Robert I.
Lucamarini, Marco
Stevenson, R. Mark
Shields, Andrew J.
contents We demonstrate a practical countermeasure against a well-known class of attacks on quantum key distribution (QKD) systems that exploit detection efficiency mismatch, where the receiver's detectors do not exhibit identical responses to incoming photons across all degrees of freedom. This class of quantum hacking strategies is broad and significantly includes the time-shift attack, which targets an arrival-time-dependent side channel at the receiver. The four-state countermeasure, previously only proven to be secure in theory, is implemented here on a GHz-clocked prototype QKD system and evaluated for its security and performance. We show that its presence enables almost complete recovery of the system's ideal secret key rate. Our results provide strong justification for adopting this countermeasure as a standard component in future scalable and practical QKD systems.
format Preprint
id arxiv_https___arxiv_org_abs_2605_22580
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Practical Countermeasure Against Attacks Exploiting Detection Efficiency Mismatch in Quantum Key Distribution
Taylor, Ben J.
Smith, Peter R.
Dynes, James F.
Woodward, Robert I.
Lucamarini, Marco
Stevenson, R. Mark
Shields, Andrew J.
Quantum Physics
We demonstrate a practical countermeasure against a well-known class of attacks on quantum key distribution (QKD) systems that exploit detection efficiency mismatch, where the receiver's detectors do not exhibit identical responses to incoming photons across all degrees of freedom. This class of quantum hacking strategies is broad and significantly includes the time-shift attack, which targets an arrival-time-dependent side channel at the receiver. The four-state countermeasure, previously only proven to be secure in theory, is implemented here on a GHz-clocked prototype QKD system and evaluated for its security and performance. We show that its presence enables almost complete recovery of the system's ideal secret key rate. Our results provide strong justification for adopting this countermeasure as a standard component in future scalable and practical QKD systems.
title Practical Countermeasure Against Attacks Exploiting Detection Efficiency Mismatch in Quantum Key Distribution
topic Quantum Physics
url https://arxiv.org/abs/2605.22580